把基于结构网格有限差分方法建立的化学非平衡流动模拟的新型解耦算法推广到基于非结构网格的有限体积法,从而可用于模拟复杂几何构型下的化学反应流动.对H2/ Air预混气体中激波诱导振荡燃烧的Lehr实验进行了数值模拟,计算得到的振荡频率与实验结果符合很好,表明计算方法具有时间和空间二阶精度.通过对不同几何外形发射体的计算发现,在其他条件相同的前提下,发射体的几何外形对激波诱导振荡燃烧的模式起决定作用.切削角小于等于15°时为规则模式下的高频振荡燃烧,切削角大于等于20°时为大扰动模式下的低频振荡燃烧.%A new uncoupled algorithm of simulating chemical non-equifibrium flow originally realized by finite difference method was extended to the unstructured finite volume method,which makes the simulation of reaction flow in complex configurations possible.The H2/Air shock-induced oscillating combustion experiment conducted by Lehr was simulated,and the computed oscillating frequencies conformed well with the ones acquired by experiment,which indicates that the present method is temporally and spatially second order accurate.It is also demonstrated that geometrical configuration plays a definitive role in the combustion regime.If the truncated angle is less or equal to 15 degrees,high frequency oscillating combustion in regular regime occurs,while if the ansle is larger or equal to 20 degrees,low frequency oscillating combustion in large-disturbance regime is observed.
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